The formation of multiples in small-N subclusters

Abstract

We explore the relative percentages of binary systems and higher-order multiples that are formed by pure stellar dynamics, within a small subcluster of N stars. The subcluster is intended to represent the fragmentation products of a single isolated core, after most of the residual gas of the natal core has dispersed. Initially the stars have random positions, and masses drawn from a log-normal distribution. For low-mass cores spawning multiple systems with Sun-like primaries, the best fit to the observed percentages of singles, binaries, triples and higher-order systems is obtained if a typical core spawns on average between N= 4.3 and 5.2 stars, specifically a distribution of N with mean μ_N4.8 and standard deviation σ_N2.4. This fit is obtained when 50\% of the subcluster's internal kinetic energy is invested in ordered rotation and 50\% in isotropic Maxwellian velocities. There is little dependence on other factors, for example mass segregation or the rotation law. Whilst such high values of N are at variance with the lower values often quoted (i.e. N= 1 or 2), very similar values (N=4.30.4 and N=4.51.9) have been derived previously by completely independent routes, and seem inescapable when the observed distribution of multiplicities is taken into account.

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